If the selling price is S and the Mark-up is M% then the cost, C*(1 + M/100) = S So that C = S/(1+M/100) = 100*S/(100 + M)
giraffe speed = 525 m / 75 s = 7 m/s Elephant speed = 260 m / 65 s = 4 m/s → The giraffe is the faster animal.
For electromagnetic waves. Freq = c/(wavelength). Taking c = 3 x 108 m/s: F = (3 x 108 m/s)/(300 m) = 1 x 106 s-1 = 1 Megahertz
35 mph = 56.33 kph = 15.65 m/s = 51.33 ft/s
I believe this refers to M. C. Escher. Not exactly a mathematician, more of an artist.I believe this refers to M. C. Escher. Not exactly a mathematician, more of an artist.I believe this refers to M. C. Escher. Not exactly a mathematician, more of an artist.I believe this refers to M. C. Escher. Not exactly a mathematician, more of an artist.
four twice inside b and c SL 25 since
The SI unit for speed is m/s (meters per second). Converting 65 mph to m/s, yields 29.06 m/s
1 km = 1000 m 1 hr = 3600 s → 65 km/1 hr = 65 × 1000 m/3600 s = 18 1/18 m/s = 18.0555... m/s ≈ 18.06 m/s
C. M. S. McLellan died on 1916-09-16.
C. M. S. McLellan was born on 1865-09-04.
16.5
Speed of sound in air is c ≈ 331 + 0.6 × T. T = Temperature. Speed of sound in air at 0°C is c ≈ 331 + 0.6 × 0 = 331 m/s. Speed of sound in air at 25°C is c ≈ 331 + 0.6 × 25 = 346 m/s. The difference is 346 m/s − 331 m/s = 15 m/s.
E=mc2 c is the speed of light which is commonly used as 3x108 (m/s) or 300,000,000 (m/s) (m/s) is meters per second
If the selling price is S and the Mark-up is M% then the cost, C*(1 + M/100) = S So that C = S/(1+M/100) = 100*S/(100 + M)
Shidumu S. M. C. Mawe has written: 'Sustainable forestry extension systems'
C. M. S. Palin has written: 'Methods for internalising the externalities of road vehicle transport'
C. M. Bartley has written: 'Fluorspar' -- subject(s): Fluorspar